CN101223074A

CN101223074A - Steering apparatus for vehicle

Info

Publication number: CN101223074A
Application number: CNA2006800259804A
Authority: CN
Inventors: 伊藤忠雄; 长内明; 东贤司
Original assignee: Fuji Kiko Co Ltd; JTEKT Corp
Current assignee: JTEKT Corp
Priority date: 2005-07-20
Filing date: 2006-07-12
Publication date: 2008-07-16
Anticipated expiration: 2026-07-12
Also published as: EP1905671A4; JP2007022461A; CN101223074B; US20090260913A1; EP1905671A1; DE602006017221D1; WO2007010790A1; EP1905671B1

Abstract

There is provided a vehicle steering device capable of executing a steer-by-wire (SBW) mode for steering wheels by a steering mechanism arranged with mechanical disconnection from a steering device. The vehicle steering device includes: a coupling mechanism capable of making a mechanical connection between the steering device and a steering shift mechanism; and an SBW control unit for controlling the steering shift mechanism in the SBW mode according to the operation amount of the steering device and sets the coupling mechanism in the connected state to switch to the SBW backup mode when the SBW mode cannot be executed. The coupling mechanism is in a disconnected state during electric connection and in a connected state during electric disconnection. The SBW control unit checks whether the SBW can be executed upon engine start and checks whether the SBW mode can be continued during engine operation on a steady basis. With this configuration, it is possible to surely activate the SBW backup system when the system has failed.

Description

Steering device for motor vehicle

Technical field

The present invention relates to adopt the mechanical connection of resolving out bearing circle (operating control) and steering hardware, and the mode that the electric signal of conversion drives steering hardware and wheel is turned to, the steering device for motor vehicle of promptly so-called steering-by-wire (SBW) mode have been carried out based on operational ton to bearing circle.

Background technology

As the existing steering device for motor vehicle that has adopted steering-by-wire (SBW) mode, has following patent documentation 1 disclosed device.This steering device for motor vehicle possesses: by the bearing circle of driver's operation; Steering angle sensor as the operational ton of this bearing circle of electrical signal detection; Can change the steering hardware of wheel turning angle; But the bindiny mechanism between mechanical connection bearing circle and the steering hardware; And the SBW control part of under the SBW pattern, the steering motor of steering hardware being controlled based on the detection electric signal of steering angle sensor.The SBW control part makes bindiny mechanism be in coupled condition when the steering motor et out of order, but and mechanical alteration wheel turning angle.

Bindiny mechanism is with magnetic clutch, friction clutch, and formation such as engaged clutch.The SBW control part comes the driving circuit of control linkage mechanism by utilizing the action command signal, thereby changes the dissengaged positions and the coupled condition of bindiny mechanism.

In said structure, in the ordinary course of things, the SBW control part makes bindiny mechanism be in dissengaged positions, and makes the mechanical connection of bearing circle and steering hardware be in dissengaged positions.And the SBW control part drives steering hardware according to the detected electric weight of steering angle sensor when the direction of operating dish, and wheel (not shown) is turned to.

Taken place under the situation of fault determining steering motor etc., the SBW control part is converted to coupled condition to the driving circuit output action command signal of bindiny mechanism and with bindiny mechanism from dissengaged positions, stops to utilize the control of the steering hardware that the detected electric weight of steering angle sensor carried out.And the operating effort of bearing circle is sent to steering hardware by connecting device, utilizes steering hardware that wheel (not shown) is turned to.

In the steering device for motor vehicle of the SBW of above-mentioned conventional example mode, when the system failure, can carry out turning to of wheel like this by the back-up system of having utilized mechanical connection mechanism.

Patent documentation 1: TOHKEMY 2002-225733 communique.

Summary of the invention

In above-mentioned existing steering device for motor vehicle, constitute the structure that can change the state of bindiny mechanism to the driving circuit output action command signal of bindiny mechanism by the SBW control part.Thus, do not constitute when the power supply supply to the SBW control part stops because of certain reason, the SBW control part makes the system of back-up system work reliably.

So the present invention proposes in order to address the above problem, the steering device for motor vehicle that back-up system is worked reliably such as its objective is when being provided at the system failure.

The present invention can carry out the steering device for motor vehicle that utilize to disconnect the steering-by-wire pattern that the steering hardware that is provided with the mechanical connection of operating control turns to wheel.Steering device for motor vehicle of the present invention possesses: the bindiny mechanism between mechanical connection operating control and the steering hardware; And steering-by-wire control part, this steering-by-wire control part makes bindiny mechanism be in dissengaged positions and control steering hardware based on the operational ton of operating control when the steering-by-wire pattern, make bindiny mechanism be in coupled condition can't normally carry out the steering-by-wire pattern time determining, and be converted to the steering-by-wire backup mode.Bindiny mechanism constitutes, and is in dissengaged positions when energising, and is in coupled condition when non-energising.The steering-by-wire control part checks whether can normally carry out the steering-by-wire pattern when engine starting, and always checks when engine operation and whether can normally carry out the steering-by-wire pattern.

According to the present invention, because bindiny mechanism is in coupled condition when non-energising,, can make bindiny mechanism be in coupled condition reliably so supply with under the situation about stopping at power supply to the steering-by-wire control part, and back-up system work.And, owing to check whether can normally carry out the steering-by-wire pattern when engine starting and in the engine operation, so can make back-up system work reliably when the system failure etc.

Here, can't normally carry out under the situation of steering-by-wire pattern determining, preferably, stop energising bindiny mechanism by disconnecting steering-by-wire control part its own power source.If so, in the work of the back-up system of utilizing bindiny mechanism, owing to the power supply to the steering-by-wire control part is open circuited, so the steering-by-wire control part can not controlled unusually.

Can't normally carry out the situation of steering-by-wire pattern, comprise that unusual situation takes place wire-controlled steering system and unusual situation takes place the vehicle electric installation system.Therefore, because back-up system is also worked when vehicle electric installation system et out of order, so but mechanical connection operating control and steering hardware and maneuver vehicle are carried out the act of rescue.

Perhaps, the steering-by-wire control part preferably begins when engine starting when the vehicle supply power, make after bindiny mechanism is in dissengaged positions to bindiny mechanism energising, check and whether can normally carry out the steering-by-wire pattern, can normally carry out under the situation of steering-by-wire pattern determining, proceed to the energising of bindiny mechanism and the dissengaged positions of maintenance bindiny mechanism, determining and normally to carry out under the situation of steering-by-wire pattern, stopping to the energising of bindiny mechanism and make bindiny mechanism be in coupled condition.Like this, when having selected engine starting, can normally carry out under the situation of steering-by-wire pattern determining, needn't wait for just making wire-controlled steering system work immediately.

Description of drawings

Fig. 1 represents an embodiment of the invention, is the whole summary pie graph of steering device for motor vehicle.

Fig. 2 represents an embodiment of the invention, is the main portion cutaway view of magnetic clutch mechanism.

Fig. 3 represents an embodiment of the invention, is the III-III line cutaway view of Fig. 2.

Fig. 4 represents an embodiment of the invention, the diagram of circuit when being engine starting.

Fig. 5 represents an embodiment of the invention, the diagram of circuit when being engine operation.

Fig. 6 represents an embodiment of the invention, is the figure of the state of expression SBW system and SBW back-up system.

The specific embodiment

Below, based on description of drawings an embodiment of the invention.

As shown in Figure 1, steering device for motor vehicle 1 possesses: [a] is by the bearing circle (operating control) 2 of driver's operation; [b] is as the steering angle sensor 3 of the operational ton of this bearing circle 2 of electrical signal detection; [c] detects the torque sensor 4 of the torque of bearing circle 2; [d] turns to counter-force applying mechanism 5 to what bearing circle 2 applied antagonistic force; [e] changes the steering hardware 6 of wheel 10 deflection angles; [f] is by the magnetic clutch (bindiny mechanism) 8 between cable 7 mechanical connection bearing circle 2 and the steering hardware 6; [g] is except above-mentioned dtc signal, steering angle signal, as the SBW control part 9 of the vehicle network signal input speed of a motor vehicle (V) signal, yaw rate (ω) signal, transverse acceleration (G) signal etc.; And [h] is to the battery 30 of their supply powers.

Magnetic clutch 8 is sent to cable 7 with the operational ton of bearing circle 2 under its coupled condition, carry out turning to of wheel 10 based on its mechanical input by steering hardware 6.Magnetic clutch 8 is controlled by SBW control part 9, is in dissengaged positions during energising, is in coupled condition during non-energising.

SBW control part 9 is when magnetic clutch 8 is in dissengaged positions and is the SBW pattern, control steering hardware 6 based on the steering angle signal of steering angle sensor 3, and carry out turning to of wheel 10 according to the directional drive (not shown) that the operational ton utilization of bearing circle 2 is arranged on the steering hardware 6.In addition, SBW control part 9 turns to counter-force applying mechanism 5 based on the controls such as dtc signal of torque sensor 4, and can be with suitable torque direction of operating dish 2.In addition, SBW control part 9 carries out the conversion to the SBW backup mode determining, SBW system exception unusual because of the vehicle electric installation system etc. can't normally carry out the SBW pattern time, and magnetic clutch 8 is converted to coupled condition from dissengaged positions.

That is to say that steering device for motor vehicle 1 possesses SBW system that carries out the SBW pattern and the SBW back-up system of carrying out the SBW backup mode.

Secondly, the structure to magnetic clutch 8 is elaborated.As shown in Figures 2 and 3, magnetic clutch 8 possesses: by bearing 12 rotation be supported on freely on the housing 11 and with output shaft 2a (shown in Figure 1) the bonded assembly S. A. 13 of bearing circle 2 one sides; With by bearing 14 and on S. A. 13 coaxial rotation be supported on output pulley 15 on the housing 11 freely.Be wound with the inside cable 31 of the cable 7 that is connected on the steering hardware 6 on the pulley 15 in output, the rotation of all gear rings 17 in the aftermentioned is delivered to steering hardware 6.End at S. A. 13 is provided with protrusion 13a, gives prominence to that in the periphery of this protrusion 13a circular-arc rotation projection 16 being set.

In all gear rings 17 be fixed on the position relative on the output pulley 15 with S. A. 13, and be that the centre of gration rotation is supported freely with the center shaft of S. A. 13.All tooth 17a in being provided with in interior week of interior all gear rings 17.Outer peripheral teeth torus 18 has the centre hole 19 that the protrusion 13a of S. A. 13 is connected, and is configured between interior all tooth 17a of S. A. 13 and interior all gear rings 17.On the outer peripheral face of periphery gear ring 18, be provided with outer peripheral teeth 18a.Centre hole 19 forms bigger than the external diameter of the protrusion 13a of S. A. 13, and outer peripheral teeth torus 18 is set outer peripheral teeth 18a and interior all tooth 17a engagements on respect to interior all gear rings 17 accentric positions for.

As Fig. 3 represented in detail, Lock Part 20 was configured in the periphery and the gap between the outer peripheral teeth torus 18 of S. A. 13, and is positioned on the eccentric position in outer peripheral teeth 18a and the interior all tooth 17a ingear modes that makes outer peripheral teeth torus 18 by this Lock Part 20.Lock Part 20 is made of pair of

locking sheet

20a, 20a, the end of each

locking plate

20a, 20a and the 16 approaching configurations of rotation projection.Spool 23 does not enter between pair of locking sheet 20a, the 20a, and pair of

locking sheet

20a, 20a state against each other is untied state exactly.On the other hand, as shown in Figure 3, spool 23 enters between pair of locking sheet 20a, the 20a, and the state that pair of

locking sheet

20a, 20a separate each other is exactly a latched position.

Separating open position, each locking plate 20a is not embedded between outer peripheral teeth torus 18 and the protrusion 13a, even S. A. 13 rotations, pair of

locking sheet

20a, 20a are rotated when projection 16 is pushed and periphery gear 18 slides relatively and are rotated.At this moment, outer peripheral teeth torus 18 rotates simultaneously by 20a, 20a and interior all gear rings 17 ingears.In latched position, each locking plate 20a is embedded between outer peripheral teeth torus 18 and the protrusion 13a.Have again, because outer peripheral teeth 18a and interior all tooth 17a engagements, so locking plate 20a.The radial action of 20a restriction outer peripheral teeth torus 18 makes distance from the 18a of tooth portion of the outer thoughtful outer peripheral teeth torus 18 of the jut 13a of S. A. 13 for fixing.Its result, when S. A. 13 rotations, pair of

locking sheet

20a, 20a and the rotation of outer peripheral teeth torus 18a one utilize gear meshing and make 15 rotations of output pulley by interior all gear rings 17.

Have again, on pair of

locking sheet

20a, 20a, hang with elastic ring 21.Utilize the elastic force of this elastic ring 21, to pair of

locking sheet

20a, 20a to the locking direction reinforcing of leaving mutually.But this elastic force is small enough to the pressing force that is used to spinning projection 16 and makes locking plate 20a to the power of untiing the degree that direction moves.That is to say that elastic ring 21 is used to prevent rocking of pair of

locking sheet

20a, 20a.

As shown in Figures 2 and 3, spool 23 is arranged on the S. A. 13, on the rotational trajectory of pair of

locking sheet

20a, 20a and be configured between pair of locking sheet 20a, the 20a.S. A. 13 and pair of

locking sheet

20a, 20a be rotation synchronously always, so the relative position of spool 23 and pair of

locking sheet

20a, 20a can not change.And spool 23 is arranged to utilize switching on and off between pair of

locking sheet

20a, 20a of o 24 to advance and retreat freely.The front end of spool 23 is tapered along with forward end forms, thereby can be smoothly and enter reliably between pair of locking sheet 20a, the 20a.

O 24 possesses to locking direction spool 23 is carried out power-assisted spring 25 and utilizes electromagnetic force to make spool 23 to untiing the electromagnet 26 that direction moves.Electromagnet 26 is made of magnet coil 27 and unshakable in one's determination 28.

O 24 is connected by magnet coil 27 is switched on, and spool 23 is attracted by electromagnet 26 and is introduced in and separates open position when connecting.When S. A. 13 rotation, pair of

locking sheet

20a, 20a are by rotation projection 16 mutual butts and rotation (elastic force of elastic ring 21 a little less than, pair of

locking sheet

20a, 20a are by rotating projection 16 easy butts).Utilize the pair of locking sheet 20a, the 20a that together rotate with S. A. 13, outer peripheral teeth torus 18 is rotated in the engage position of change and interior all gear rings 17.At this moment, pair of

locking sheet

20a, 20a and outer peripheral teeth torus 18 slide.Thus, to o 24 energisings the time, magnetic clutch 8 is in dissengaged positions.

O 24 disconnects by magnet coil 24 not being switched on, and spool 23 is given prominence to because of the elastic force of spring 25 and is positioned at latched position when disconnecting.When spool 23 was positioned at latched position, pair of

locking sheet

20a, 20a were positioned at latched position, and pair of

locking sheet

20a, 20a are embedded between jut 13a and the outer peripheral teeth torus 18.Promptly, outer peripheral teeth torus 18 and the rotation of S. A. 13 one.Here, because outer peripheral teeth torus 18 meshes with interior all gear rings 17,, moment and S. A. 13 rotate so constituting one and outer peripheral teeth torus 18 and interior all gear rings 17.Thus, the operating effort of bearing circle 2 is delivered to steering hardware 6 by magnetic clutch 8 and cable 7.Thus, when electromagnetic component 24 not being switched on, magnetic clutch 8 is in coupled condition.

Secondly, based on Fig. 4 and Fig. 5 the effect of above-mentioned steering device for motor vehicle 1 is described.

As shown in Figure 4, in engine stop-state, the power supply of SBW back-up system is supplied with to disconnecting, the o 24 of magnetic clutch 8 is for disconnecting, and spool 23 is outstanding and be positioned at latched position, and thus, the SBW back-up system is in on-state (step S1～S4).

When selecting ACC (annex), supply to SBW system, SBW back-up system from the power supply of battery 30, the o 24 of magnetic clutch 8 is connected, and spool 23 moves to separates open position, and thus, the SBW back-up system disconnects (step S5～S11).

Secondly, SBW control part 9 judges whether normally to carry out SBW system (step S12).Whether can normally carry out the SBW system has no abnormal in the SBW system and the vehicle electric installation system has and no abnormally judges by checking.Whether the SBW system has that unusual inspection is following to be carried out, for example visit steering angle sensor 3, torque sensor 4 and steering hardware 6 and obtain various information, whether consistent between the information of inspection bearing circle 2 sides and the information of wheel 10 sides, inconsistent situation judges and is the SBW system exception.Under the voltage from the supply power of battery 30 is situation below the prescribed level, also be judged as the SBW system exception.

Determine at SBW control part 9 and can normally carry out under the situation of SBW system, allow engine starting (step S13).That is to say, SBW control part 9 can normally be carried out under the situation of SBW system determining, and selects the SBW pattern, keeps the energising to magnet coil 27, and make magnetic clutch 8 be in dissengaged positions, and keep the state of the mechanical connection of cutting direction dish 2 and steering hardware 6.And SBW control part 9 just drives steering hardware 6 according to steering angle sensor 3 detected electric weight and wheel 10 is turned to when direction of operating dish 2.

Determine at SBW control part 9 and can't normally carry out under the situation of SBW system, disconnect the SBW system.Specifically, disconnection is supplied with the power supply of SBW back-up system the energising and the disconnection of SBW system.Thus, the o 24 of magnetic clutch 8 is disconnected, and spool 23 is outstanding and move to latched position, and the SBW back-up system is in on-state (step S14～S19) thus.And, allow engine starting (step S12).That is to say that SBW control part 9 is converted to the SBW backup mode determining and can't normally carrying out under the situation of SBW system.And, stop energising to magnet coil 27, magnetic clutch 8 is become coupled condition from dissengaged positions, the operating effort of bearing circle 2 is delivered to steering hardware 6 by magnetic clutch 8, and by steering hardware 6 wheel 10 is turned to.

As shown in Figure 5, SBW control part 9 always checks whether when engine starting SBW system is for can normally carrying out (the step S20～S22) of SBW system under the situation about connecting in engine operation.

Determine and normally to carry out under the situation of SBW system at SBW control part 9, proceed the SBW pattern.That is to say, proceed the power supply of SBW system is supplied with, the power supply of SBW back-up system is supplied with.And, keep the energising of magnet coil 27 and keep the connection of the o 24 of magnetic clutch 8, spool 23 is remained on separate open position, thus, continue disconnection (the step S23～S27) of SBW back-up system.When the SBW pattern, the work display lamp of SBW system is connected, and keeps engine drive (step S28, S29).

Determine at SBW control part 9 and can't normally carry out under the situation of SBW system, disconnect the SBW system.Specifically, disconnect the power supply of SBW system is supplied with, and disconnection is supplied with the power supply of SBW back-up system.Thus, the o 24 of magnetic clutch 8 is disconnected, and spool 23 is given prominence to and moved to latched position, thus, the connection of SBW back-up system (step S30～S35).During the SBW backup mode, the work display lamp of SBW system disconnects, and keeps engine drive (step S36,37).

That is to say that as shown in Figure 6, under the situation that the SBW system connects, the SBW back-up system is disconnected, under the open circuited situation of SBW system, the SBW back-up system is switched on.

More than, according to above-mentioned steering device for motor vehicle 1, because magnetic clutch 8 is in coupled condition when non-energising, so stopping under the situation that the power supply of SBW control part 9 is supplied with, can make magnetic clutch 8 be in coupled condition reliably, and the work of SBW back-up system.And, owing to check whether can normally carry out the SBW pattern when engine starting and in the engine operation, so even also can make back-up system work during the system failure etc.

In the present embodiment, can't normally carry out under the situation of SBW pattern determining, stop energising by disconnecting SBW control part 9 its own power source to magnetic clutch 8, so in the back-up system work that utilizes magnetic clutch 8, because the power supply to SBW control part 9 disconnects, so SBW control part 9 can not controlled unusually.That is to say, during the SBW backup mode, can prevent from reliably to carry out that the antagonistic force that turns to 5 pairs of bearing circle 2 of counter-force applying mechanism based on torque sensor 4 applies etc. when utilizing the SBW pattern.

In the present embodiment, the situation that can't normally carry out the SBW pattern comprises that unusual situation takes place unusual situation and the vehicle electric installation system of generation in the SBW system, so, even if the SBW back-up system is also worked under the situation of vehicle electric installation system et out of order, so can carry out the act of rescue by turning to of mechanical connection.

In the present embodiment, when SBW control part 9 began the vehicle supply power when engine starting, just 8 energisings were in after the dissengaged positions magnetic clutch 8 to magnetic clutch, check whether can normally carry out the SBW pattern.Determining and normally to carry out under the situation of SBW pattern, proceeding the energising of magnetic clutch 8 and the dissengaged positions of maintenance magnetic clutch 8.Determining and normally to carry out under the situation of SBW pattern, stopping to make magnetic clutch 8 be in coupled condition the energising of magnetic clutch 8.Therefore, when having selected engine starting, can normally carry out under the situation of SBW pattern determining, needn't wait for just making the SBW system works immediately.

Have, in the present embodiment, bindiny mechanism constitutes with magnetic clutch 8, but is not limited to this again.

Utilizability on the industry

The vehicle according to the invention transfer, because bindiny mechanism is in connection status when non-energising, So stopping to make reliably the bindiny mechanism place in the situation that the power supply of steering-by-wire control part is supplied with In connection status, and can make back-up system work.

Claims

1. steering device for motor vehicle can be carried out to utilize and disconnects the steering-by-wire pattern that the steering hardware that is provided with the mechanical connection of operating control turns to wheel, it is characterized in that,

Possess: the bindiny mechanism between above-mentioned operating control of mechanical connection and the above-mentioned steering hardware; And

The steering-by-wire control part, when the steering-by-wire pattern, make above-mentioned bindiny mechanism be in dissengaged positions, and control above-mentioned steering hardware based on the operational ton of above-mentioned operating control, can't normally carry out under the situation of steering-by-wire pattern determining, make above-mentioned bindiny mechanism be in coupled condition and be converted to the steering-by-wire backup mode

Above-mentioned bindiny mechanism constitutes when energising and is in dissengaged positions, is in coupled condition when non-energising,

Above-mentioned steering-by-wire control part checks whether can normally carry out the steering-by-wire pattern when engine starting, and always checks when engine operation and whether can normally carry out the steering-by-wire pattern.

2. steering device for motor vehicle according to claim 1 is characterized in that,

Can't normally carry out under the situation of steering-by-wire pattern determining,, stop energising above-mentioned bindiny mechanism by disconnecting above-mentioned steering-by-wire control part its own power source.

3. steering device for motor vehicle according to claim 2 is characterized in that,

Can't normally carry out the situation of steering-by-wire pattern, comprise that unusual situation takes place wire-controlled steering system and unusual situation takes place the vehicle electric installation system.

4. steering device for motor vehicle according to claim 1 is characterized in that,

The steering-by-wire control part begins when engine starting when the vehicle supply power, just to the energising of above-mentioned bindiny mechanism above-mentioned bindiny mechanism is in after the dissengaged positions, checks whether can normally carry out the steering-by-wire pattern,

Determining under the situation that can normally carry out line traffic control pattern transition, proceed energising, and keep the dissengaged positions of above-mentioned bindiny mechanism above-mentioned bindiny mechanism,

Determining and normally carrying out under the situation of steering-by-wire pattern, stop energising, and make above-mentioned bindiny mechanism be in coupled condition above-mentioned bindiny mechanism.